copernicus and its evolution
TRANSCRIPT
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Copernicus EU
Copernicus EU www.copernicus.eu
Copernicus EU
C o p e r n i c u s a n d i t s e v o l u t i o nEurope's eyes on Earth
Cristina AnanassoEuropean Commission DG GROW- Internal market, Industry, Entrepreneurship and SMEsDirectorate I – Space policy, Copernicus and Defence
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Copernicus
O U T L I N E
• Copernicus in brief
• Copernicus evolution
• European Union Space Programme (2021-2027)
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Copernicus
C O P E R N I C U S I N B R I E F
• The Copernicus programme (REGULATION (EU) No 377/2014) is a cornerstone of the European Union´ efforts:
– To monitor the Earth, its environment and ecosystems
– To ensure its citizens are prepared and protected for crises, security risks and natural or man-made disasters
• Places a world of insight (data and information) about our planet at the disposal of citizens, public authorities and policy makers, scientists, entrepreneurs and businesses on a full, free and open basis
• Is a tool for economic development and a driver for the digital economy
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Copernicus
C O P E R N I C U S G O V E R N A N C E
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Copernicus
C O P E R N I C U S A R C H I T E C T U R E
added-value products
SentinelsContributing missions
6 services use Earth Observation data to deliver
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Copernicus
T H E S E N T I N E L SKey Features
SENTINEL-1: 4-40m resolution, 3 day revisit at equator
Polar-orbiting, all-weather, day-and-night radar imaging
2 Sats in orbit
SENTINEL-2: 10-60m resolution, 5 days revisit time
2 Sats in Orbit
Polar-orbiting, multispectral optical, high-res imaging
SENTINEL-3: 300-1200m resolution, <2 days revisit
2 Sats in Orbit
Optical and altimeter mission monitoring sea and land parameters
SENTINEL-4: 8km resolution, 60 min revisit time
1st Launch in 2020
Payload for atmosphere chemistry monitoring on MTG-S
SENTINEL-5p: 7-68km resolution, 1 day revisit
1 Sat in Orbit
Mission to reduce data gaps between Envisat, and S-5
SENTINEL-5: 7.5-50km resolution, 1 day revisit
1st Launch in 2021
Payload for atmosphere chemistry monitoring on MetOp 2ndGen
SENTINEL-6: 10 day revisit time
1st Launch in 2020
Radar altimeter to measure sea-surface height globally
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Copernicus
T H E C O N T R I B U T I N G M I S S I O N S
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In situ
I N - S I T U C O M P O N E N T : O V E R V I E W
• In situ data = "observation data from ground-, sea-, or air-borne sensors, reference and ancillary data licensed or provided for use in Copernicus" (Copernicus regulation – article 3)
• Use of In situ data:
– Validate & calibrate Copernicus products
– Reliable information services
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Copernicus
C O P E R N I C U S S I X S E R V I C E S
Marine Environment
Land Monitoring
Atmosphere Monitoring
Emergency Management
Security
Climate Change
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Copernicus
O U T L I N E
• Copernicus in brief
• Copernicus evolution
• European Union Space Programme (2021-2027)
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Copernicus
C O N T E X T
• Copernicus: User driven Programme
• Space Strategy for Europe (COM(2016)705) - Advancing the EU space programmes and meeting new user needs :
– “Additional services will be considered to meet emerging needs in specific priority areas, including:
i. Climate change and sustainable development, to monitor CO2 and other GHG emissions, land use and forestry, and changes in the Arctic with Copernicus
ii. [Security and defence]*”
* Not part of this presentation
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Copernicus
I n p u t s f o r o b s e r v a t i o n r e q u i r e m e n t s
• User requirements activities– User requirements study including desk studies and user
consultations (GMV study)
– Consultations with Copernicus Entrusted Entities (Space and Services component)
– Workshops held in 2016-2018 on Agriculture, Forestry, polar areas, Climate Change, Cultural Heritage, raw materials and other topics
– User requirements Workshop on 14 September 2017
• Expert Groups on CO2, Polar areas and Agriculture
• ESA Mission Task Forces based on Phase 0 studies (Thermal, Hyperspectral)
• Copernicus4EC study* (report expected end 2018)
* Study examining the fit-for-purpose of Copernicus for EU legislation / EU policies
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Copernicus
K e y P o l i c y d r i v e r s
Key policy drivers for the definition of these mission concepts have been the need for (in line with the space strategy):
- Monitoring of anthropogenic CO2 emissions in support of the Paris Agreement
- Monitoring of changes in the Arctic to support navigation and climate change applications (in line with the Arctic policy)
- Improved monitoring of agricultural production and forecasting (supporting agriculture and water policies)
- Improved monitoring of forestry, raw materials and minerals
Some of the identified missions have wider application fields, addressing also other (secondary) requirements.
Phase A/B1 studies have started in Q1 2018 to further define mission concepts and fine-tune mission requirements.
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Copernicus
6 M i s s i o n s
• Based upon these inputs, 6 possible satellite missions have been identified:
Priority 1: Anthropogenic CO2 Monitoring Mission (CO2 Mission)
• Polar Ice and Snow: Passive Microwave Radiometer Mission (PMR Mission)
• High Spatio-Temporal resolution Land Surface Temperature Mission (TIRI Mission)
• Polar Ice and Snow: Topography Mission
• L-Band Synthetic Aperture Radar Imaging Mission (L-Band Mission)
• Hyperspectral Imaging Mission (CHIME)
Pri
ori
ties
no
t ye
t d
efin
ed
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Copernicus
H y p e r s p e c t r a l m i s s i o n ( C H I M E )
Primary observation requirements to be addressed:
• Measurements should support sustainable agriculture and food security and allow for the characterisation of raw materials, in particular:
– support sustainable use of nutrients and water, i.e. crop nutrient deficiencies, crop diseases and growth stages, including photosynthesis activity at European field level (30-50m)
– allow to map soil mineralogical composition to assess soil fertility, soil properties and degradation
– provide information to support raw materials exploration and mine environment management
Potential other observation gaps covered:
• Measurements of the electromagnetic spectrum could support a wide range of applications, including:
– Biodiversity, ecosystem sustainability, forestry (tree/vegetation species diversity)
– Coastal and inland waters (quality, suspended sediments, chlorophyll content)
– Environmental degradation and hazards, Hydrology and Cryosphere applications
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Copernicus
S u m m a r y a n d w a y f o r w a r d
• Considerations for Prioritization*:– Political Drivers– Coverage of policies and general user requirements– Potential impact on application areas– Autonomous access to EO data or availability of alternatives at
international level– Technological readiness and feasibility– Potential for international cooperation
• Critical milestones– Release of the user requirements document from COM – Adoption of the EU Multiannual Financial Framework– Adoption of the Commission Space Policy Programme– ESA Ministerial in 2019
*Availability of funds is a boundary condition for the implementation of prioritized missions
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Copernicus
O U T L I N E
• Copernicus in brief
• Copernicus evolution
• European Union Space Programme (2021-2027)
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EU Space Programme Regulation
June 2018
European Commission DG GROW- Internal market, Industry, Entrepreneurship and SMEsDirectorate I – Space policy, Copernicus and Defence
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EU in space today
Space Programme
2nd space power in the world
European space industry employs over 230 000 people and its turnover wasestimated between €46 and 54 billion in 2014, representing around 21% ofthe value of the global space sector.
EU space flagship programmes – Galileo/EGNOS and Copernicus
Operational on time and on budget; world class references
EU investment in Space: €5 billion for 2005-2013 and €11 billion for2014-2020 (plus investment by Member States)
Next EU budget: €16.2bn – reflects the importance of space for the EU
Not a Single Member States could do it alone
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The most advanced earthobservation system in the world
2018 All 6 services OPERATIONAL
7 SATELLITES IN THE ORBIT
7Data distributed in PB – The 4th
big data provider
150 Thousands of registred users
CopernicusServices & application
DIAS platforms: easy access to data
Climate change & environmentalmonitoring
Natural disastersFloodings, earthquakes, fires, huricanes
SECURITY/BORDERMANAGEMENT – (frontex, ESMA)
AGRICULTUREFarmers use Copernicus for precise farming
Space Programme
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Space in support of EU policies
Space Programme
Mapping of natural
disturbances and weather-related
challenges
Monitoring COP21
commitments and CO2
emissions
Better execution of CAP due to
policy monitoring and precision
farming
Enabling technologies in
automotive, aviation and
maritime sectors
Supporting civil protection thanks
to Emergency Management
Service
Aiding the digitalisation
through space and satellite
communication
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Challenges
Space Programme
Revolution in space sector and increased competition
from traditional, emerging and new space powers both state(USA, Russia, China, Japan, India)
and private (SpaceX, Blue Origin) supported by VentureCapital investments; New space, disruptive technologies &business models
Security dimension: EU needs a clear strategy to secure itsindustrial and political leadership as well as autonomy to remainits comparative advantage on the global market.
New needs: Climate change, data economy, security/defense
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Scope of the Programme
Space Programme
Cro
ss-c
uttin
g a
ctiv
ities
9,7
5,8
0,5
MFF 21-27
SSA/GOVSATCOM
Copernicus
Galileo/EGNOS
Allocation of the €16bn
4 components – 3 horizontal activities
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EVOLUTION of GALILEO & COPERNICUS
• GALILEO: 2nd generation gradually operational from 2030 with higherprecision and greater resilience, providing new services for Drones, Internetof things, Driverless cars, Security and defence.
• COPERNICUS: New observation capacities for:
• CO2 emission monitoring supporting the objectives of the COP21Paris agreement
• Land use including support to agriculture• Observations of the Polar areas• Security needs, to improve detection of small objects (e.g. vessels) in
support of the fight against illegal trafficking or needs for externalactions.
Space Programme
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Copernicus EU
Copernicus EU www.copernicus.eu
Copernicus EU
T h a n k y o u f o r y o u r a t t e n t i o n
European Commission